CN109365110B

CN109365110B - Multi-functional stone breaker for paving

Info

Publication number: CN109365110B
Application number: CN201811179741.5A
Authority: CN
Inventors: 杨廷胜; 王雄伟; 刘清华; 张建华
Original assignee: Wenzhou Bohai Biological Technology Co ltd
Current assignee: Hunan Linli Southern New Material Technology Co ltd
Priority date: 2018-10-10
Filing date: 2018-10-10
Publication date: 2020-11-20
Anticipated expiration: 2038-10-10
Also published as: CN109365110A

Abstract

The invention relates to a stone crushing device, in particular to a multifunctional stone crushing device for paving, which comprises a stone sweeping mechanism with a movable frame and a vibration feeding mechanism, broken actuating mechanism, building stones flattening mechanism, the device can automatic feed, the device can adjust the partial vibration power of automatic feed, the device can broken building stones, the device can evenly spread out broken building stones, the device can be the stone compaction of spreading out, the device can remove, vibration feed mechanism is located the top that removes frame building stones and sweeps flat mechanism, vibration feed mechanism is the welding with the connected mode that removes frame building stones and sweep flat mechanism, broken actuating mechanism is located the top that removes frame building stones and sweeps flat mechanism, broken actuating mechanism is for the welding with the connected mode that removes frame building stones and sweeps flat mechanism, building stones flattening mechanism and the connected mode that removes frame building stones and sweep flat mechanism are the welding.

Description

Multi-functional stone breaker for paving

Technical Field

The invention relates to a stone crushing device, in particular to a multifunctional stone crushing device for paving.

Background

Along with social progress, the development of a city is influenced by the quality of road construction, the development of the city can be pulled by convenient traffic, stones are often used in the road construction, and the traditional stone crushing device is single in function and cannot have good adaptability, so that the multifunctional stone crushing device for paving is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing a multifunctional stone crushing device for paving, the device can automatically feed, the device can adjust the bias force of automatic feeding, the device can crush stones, the device can uniformly spread the crushed stones, the device can compact the spread stones, and the device can move.

In order to solve the technical problem, the invention relates to a stone crushing device, in particular to a multifunctional stone crushing device for paving, which comprises a moving vehicle frame stone sweeping mechanism, a vibration feeding mechanism, a crushing executing mechanism and a stone flattening mechanism, wherein the device can automatically feed materials, can adjust the polarization force of the automatic feeding, can crush stones, can uniformly spread crushed stones, can compact spread stones and can move.

The stone material sweeping and leveling mechanism of the movable frame comprises a movable wheel mechanism, a frame body, a feeding hole, a limiting rod sliding groove, a stone material sweeping and leveling mechanism and a discharging hole, wherein the movable wheel mechanism is positioned below the frame body, the movable wheel mechanism is connected with the frame body through a bolt, the feeding hole is positioned above the frame body, the feeding hole is connected with the frame body through welding, the limiting rod sliding groove is formed in a top plate of the frame body, the stone material sweeping and leveling mechanism is connected with the frame body through a part of bolt connection and a part of bearing connection, and the discharging hole is formed in the frame body;

the movable wheel mechanism comprises a movable wheel body, a movable wheel fixing rod, movable wheel supporting legs and a movable wheel seat, wherein the movable wheel body is connected with the movable wheel fixing rod in a bearing connection mode, the movable wheel fixing rod is connected with the movable wheel supporting legs in a welding mode, the movable wheel seat is positioned above the movable wheel supporting legs, and the movable wheel seat is connected with the movable wheel supporting legs in a welding mode;

the stone sweeping mechanism comprises a sweeping plate, a sweeping motor shaft, a sweeping motor and a sweeping motor base, wherein the sweeping plate is positioned below the sweeping motor shaft, the sweeping plate is connected with the sweeping motor shaft in an expansion sleeve mode, the sweeping motor shaft is connected with the sweeping motor in a bearing connection mode, the sweeping motor base is positioned on the right side of the sweeping motor, and the sweeping motor base is welded with the sweeping motor;

the vibration feeding mechanism comprises a vibration motor, a vibration feeding machine body, a material sliding plate, a compression spring and a limiting rod, wherein the vibration motor is connected with the vibration feeding machine body, the vibration motor is welded with the vibration feeding machine body, the material sliding plate is connected with the vibration feeding machine body, the material sliding plate is welded with the vibration feeding machine body, the compression spring is positioned below the vibration feeding machine body, the compression spring is welded with the vibration feeding machine body, the limiting rod is positioned below the vibration feeding machine body, and the limiting rod is welded with the vibration feeding machine body;

the vibration motor comprises a balancing weight, an eccentric disc, a vibration motor shaft, a vibration motor body and a vibration motor base, wherein the balancing weight is connected with the eccentric disc in a spiral connection mode, the vibration motor shaft is connected with the eccentric disc in an expansion sleeve connection mode, the vibration motor shaft is arranged inside the vibration motor body, the vibration motor shaft is connected with the vibration motor body in a bearing connection mode, the vibration motor body is positioned above the vibration motor base, and the vibration motor body is welded with the vibration motor base in a connection mode;

the crushing executing mechanism comprises a crushing hammer head, a crushing hammer head seat, a crushing hammer head fixing seat, a reset spring, a crushing executing mechanism casing, a crushing executing driving motor mechanism, an intermediate connecting mechanism and a driving rod mechanism, wherein the crushing hammer head is connected with the crushing hammer head seat, the connection mode of the crushing hammer head and the crushing hammer head seat is spiral connection, the crushing hammer head fixing seat is positioned on the right side of the crushing hammer head seat, the connection mode of the crushing hammer head fixing seat and the crushing hammer head seat is welding, the reset spring is positioned on the right side of the crushing hammer head seat, the connection mode of the reset spring and the crushing hammer head seat is welding, the reset spring is connected with the crushing executing mechanism casing, the connection mode of the reset spring and the crushing executing mechanism casing is welding, the matching mode of the crushing hammer head fixing seat and the crushing executing mechanism casing is clearance fit, and the, the connection mode of the crushing execution driving motor mechanism and the crushing execution mechanism casing is bolted connection, the middle connection mechanism is positioned on the right side of the crushing hammer head fixing seat, the connection mode of the middle connection mechanism and the crushing hammer head fixing seat is welding, the driving rod mechanism is connected with the crushing execution driving motor mechanism, the driving rod mechanism is meshed with the connection mode of the crushing execution driving motor mechanism, the driving rod mechanism is arranged inside the crushing execution mechanism casing, the connection mode of the driving rod mechanism and the crushing execution mechanism casing is bearing connection, the middle connection mechanism is connected with the driving rod mechanism, and the middle connection mechanism is sleeved on the driving rod mechanism;

the crushing execution driving motor mechanism comprises an execution motor seat, an execution motor shaft and a bevel gear A, wherein the execution motor seat is positioned below the execution motor, the execution motor seat is connected with the execution motor in a welding mode, the execution motor shaft is arranged inside the execution motor, the execution motor shaft is connected with the execution motor in a bearing mode, the bevel gear A is positioned on the right side of the execution motor shaft, and the bevel gear A is connected with the execution motor shaft in an expansion sleeve mode;

the middle connecting mechanism comprises a connecting seat A, a hinge buckle and a hinge rod, the connecting seat A is connected with the hinge buckle in a hinged mode, the hinge rod is connected with the hinge buckle in a hinged mode, and the hinge rod is connected with the hinge buckle in a hinged mode;

the driving rod mechanism comprises a bevel gear B and a connecting driving rod, the bevel gear B is positioned above the connecting driving rod, and the bevel gear B is connected with the connecting driving rod in a welding manner;

the stone flattening mechanism comprises a flattening driving mechanism, a driving seat, a connecting rod B, a compression cavity, a spring seat, a spring A and a flattening seat, the flattening driving mechanism is positioned above the driving seat, the flattening driving mechanism is in contact fit with the driving seat, the driving seat is connected with the connecting rod B in a welding mode, the spring seat is arranged in the compression cavity, the spring seat is in clearance fit with the compression cavity, the spring A is positioned below the spring seat, the spring A is connected with the spring seat in a welding mode, the spring A is connected with the compression cavity in a welding mode, the flattening seat is positioned below the connecting rod B, and the flattening seat is connected with the connecting rod B in a welding mode;

the flattening driving mechanism comprises a flattening motor base, a flattening motor shaft and a cam, the flattening motor base is connected with the flattening motor in a welding mode, the flattening motor shaft is connected with the flattening motor in a bearing mode, and the flattening motor shaft is connected with the cam in an expansion sleeve mode;

the vibration feeding mechanism is positioned above the stone sweeping mechanism of the moving frame, the connection mode of the vibration feeding mechanism and the stone sweeping mechanism of the moving frame is welding, the crushing executing mechanism is positioned above the stone sweeping mechanism of the moving frame, the connection mode of the crushing executing mechanism and the stone sweeping mechanism of the moving frame is welding, and the connection mode of the stone flattening mechanism and the stone sweeping mechanism of the moving frame is welding.

As a further optimization of the technical scheme, the number of the moving wheel mechanisms of the multifunctional stone crushing device for paving is four.

As a further optimization of the technical scheme, the material of the feeding hole and the vibratory feeding machine body of the multifunctional stone crushing device for paving is high manganese steel.

As a further optimization of the technical scheme, the compression spring and the spring A are made of high-carbon steel.

The multifunctional stone crushing device for paving has the beneficial effects that:

the multifunctional stone crushing device for paving disclosed by the invention can automatically feed, can adjust the polarization force of automatic feeding, can crush stones, can uniformly spread the crushed stones, can compact the spread stones, and can move.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a stone crushing device for multifunctional paving of the invention.

Fig. 2 is a schematic structural diagram of a stone sweeping mechanism 1 of a movable vehicle frame of the multifunctional stone crushing device for paving.

Fig. 3 is a schematic structural diagram of a moving wheel mechanism 1-1 of the multifunctional paving aggregate crushing device of the invention.

Fig. 4 is a schematic structural diagram of a stone sweeping mechanism 1-5 of the multifunctional stone crushing device for paving.

Fig. 5 is a schematic structural view of a vibratory feeding mechanism 2 of the stone crushing device for multifunctional paving of the invention.

Fig. 6 is a schematic structural view of a vibration motor 2-1 of the stone crushing device for multifunctional paving of the invention.

Fig. 7 is a schematic structural diagram of a crushing actuator 3 of the multifunctional paving aggregate crushing device of the invention.

Fig. 8 is a schematic structural view of a crushing execution driving motor mechanism 3-6 of the stone crushing device for multifunctional paving of the invention.

Fig. 9 is a schematic structural view of the intermediate connection mechanism 3-7 of the multifunctional stone crushing device for paving.

Fig. 10 is a schematic structural view of a driving rod mechanism 3-8 of the multifunctional paving aggregate crushing device of the present invention.

Fig. 11 is a schematic structural diagram of a stone flattening mechanism 4 of the multifunctional stone crushing device for paving.

Fig. 12 is a schematic structural diagram of a flattening driving mechanism 4-1 of the multifunctional paving aggregate crushing device of the present invention.

In the figure: a stone sweeping mechanism 1 of the movable frame; a moving wheel mechanism 1-1; a moving wheel body 1-1-1; a movable wheel fixing rod 1-1-2; moving wheel supporting legs 1-1-3; 1-1-4 of a movable wheel seat; a frame body 1-2; 1-3 of a feed inlet; 1-4 of a limiting rod sliding groove; 1-5 parts of a stone sweeping mechanism; sweeping the flat plate 1-5-1; 1-5-2 parts of a sweeping motor shaft; 1-5-3 parts of a sweeping motor; 1-5-4 parts of a sweeping motor base; 1-6 of a discharge port; a vibration feeding mechanism 2; a vibration motor 2-1; 2-1-1 of a balancing weight; 2-1-2 of an eccentric disc; 2-1-3 of a vibrating motor shaft; 2-1-4 of a vibration motor body; 2-1-5 of a vibration motor base; a vibration feeding machine body 2-2; 2-3 of a material sliding plate; 2-4 of a compression spring; 2-5 of a limiting rod; a crushing actuator 3; 3-1 parts of a crushing hammer head; 3-2 of a breaking hammer head seat; 3-3, a breaking hammer head fixing seat; 3-4 of a return spring; a crushing executing mechanism casing 3-5; a crushing execution driving motor mechanism 3-6; an execution motor base 3-6-1; an execution motor 3-6-2; executing motor shaft 3-6-3; bevel gear A3-6-4; 3-7 of an intermediate connecting mechanism; connecting seat A3-7-1; 3-7-2 parts of hinge buckle; hinge rods 3-7-3; a driving rod mechanism 3-8; bevel gear B3-8-1; connecting a driving rod 3-8-2; a stone flattening mechanism 4; a flattening driving mechanism 4-1; flattening a motor base 4-1-1; a flattening motor 4-1-2; flattening a motor shaft 4-1-3; cams 4-1-4; a driving seat 4-2; a connecting rod B4-3; 4-4 of a compression cavity; spring seats 4-5; spring A4-6; and 4-7 of flattening seats.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, the invention relates to a stone crushing device, and more specifically to a multifunctional stone crushing device for paving, which comprises a moving frame stone sweeping mechanism 1, a vibration feeding mechanism 2, a crushing actuator 3, and a stone flattening mechanism 4, wherein the device can automatically feed materials, can adjust the bias vibration force of the automatic feeding, can crush stones, can uniformly spread crushed stones, can compact spread stones, and can move.

The stone material sweeping and leveling mechanism 1 of the movable frame comprises a movable wheel mechanism 1-1, a frame body 1-2, a feeding port 1-3, a limiting rod sliding groove 1-4, a stone material sweeping and leveling mechanism 1-5 and a discharging port 1-6, wherein the movable wheel mechanism 1-1 is positioned below the frame body 1-2, the movable wheel mechanism 1-1 is connected with the frame body 1-2 through bolts, the movable wheel mechanism 1-1 is convenient to disassemble and maintain, the feeding port 1-3 is positioned above the frame body 1-2, the feeding port 1-3 is connected with the frame body 1-2 through welding, the limiting rod sliding groove 1-4 is formed in a top plate of the frame body 1-2, the stone material sweeping and leveling mechanism 1-5 is connected with the frame body 1-2 through bolts, and the stone material sweeping and leveling mechanism 1-5 is connected with the frame body 1-2 through bolts, Part of the bearing is connected, and the discharge port 1-6 is arranged on the frame body 1-2;

the moving wheel mechanism 1-1 comprises a moving wheel body 1-1-1, a moving wheel fixing rod 1-1-2, a moving wheel supporting leg 1-1-3 and a moving wheel seat 1-1-4, wherein the moving wheel body 1-1-1 is connected with the moving wheel fixing rod 1-1-2, the moving wheel body 1-1-1 is connected with the moving wheel fixing rod 1-1-2 through a bearing in a manner of providing reliable rotation for the moving wheel body 1-1-1, the moving wheel fixing rod 1-1-2 is connected with the moving wheel supporting leg 1-1-3 through welding in a manner, and the moving wheel seat 1-1-4 is positioned above the moving wheel supporting leg 1-1-3, the movable wheel seat 1-1-4 and the movable wheel support leg 1-1-3 are connected by welding;

the stone sweeping mechanism 1-5 comprises a sweeping flat plate 1-5-1, a sweeping motor shaft 1-5-2, a sweeping motor 1-5-3 and a sweeping motor base 1-5-4, wherein the sweeping flat plate 1-5-1 is positioned below the sweeping motor shaft 1-5-2, the sweeping flat plate 1-5-1 and the sweeping motor shaft 1-5-2 are connected in a manner of expanding sleeves, the sweeping motor shaft 1-5-2 is connected with the sweeping motor 1-5-3, the sweeping motor shaft 1-5-2 and the sweeping motor 1-5-3 are connected in a manner of bearings, the sweeping motor base 1-5-4 is positioned at the right side of the sweeping motor 1-5-3, the sweeping motor base 1-5-4 and the sweeping motor 1-5-3 are connected in a manner of welding, stones falling from the discharge port 1-6 are scattered on the ground, the sweeping motor 1-5-3 is operated at the moment, the sweeping motor 1-5-3 drives the sweeping motor shaft 1-5-2 to rotate, the sweeping motor shaft 1-5-2 drives the sweeping plate 1-5-1 to rotate, and the sweeping plate 1-5-1 rotates to uniformly spread the falling stones;

the vibration feeding mechanism 2 comprises a vibration motor 2-1, a vibration feeding machine body 2-2 and a material sliding plate 2-3, the vibration feeding device comprises a compression spring 2-4 and a limiting rod 2-5, wherein a vibration motor 2-1 is connected with a vibration feeding machine body 2-2, the vibration motor 2-1 is connected with the vibration feeding machine body 2-2 in a welding mode, a material sliding plate 2-3 is connected with the vibration feeding machine body 2-2, the material sliding plate 2-3 is connected with the vibration feeding machine body 2-2 in a welding mode, the compression spring 2-4 is positioned below the vibration feeding machine body 2-2, the compression spring 2-4 is connected with the vibration feeding machine body 2-2 in a welding mode, the limiting rod 2-5 is positioned below the vibration feeding machine body 2-2, and the limiting rod 2-5 is connected with the vibration feeding machine body 2-2 in a welding mode;

the vibration motor 2-1 comprises a balancing weight 2-1-1, an eccentric disc 2-1-2, a vibration motor shaft 2-1-3, a vibration motor body 2-1-4 and a vibration motor base 2-1-5, wherein the balancing weight 2-1-1 is connected with the eccentric disc 2-1-2, the balancing weight 2-1-1 is connected with the eccentric disc 2-1-2 in a spiral mode, the vibration motor shaft 2-1-3 is connected with the eccentric disc 2-1-2 in an expansion sleeve mode, the vibration motor shaft 2-1-3 is arranged inside the vibration motor body 2-1-4, and the vibration motor shaft 2-1-3 is connected with the vibration motor body 2-1-4 in a bearing mode The vibration motor body 2-1-4 is positioned above the vibration motor base 2-1-5, the connection mode of the vibration motor body 2-1-4 and the vibration motor base 2-1-5 is welding, the vibrating motor shaft 2-1-3 is driven to rotate by the operation of the vibrating motor body 2-1-4, the eccentric disc 2-1-2 is driven to rotate by the rotation of the vibrating motor shaft 2-1-3, the eccentric disc 2-1-2 generates exciting force by the rotation, the exciting force drives the vibrating feeder body 2-2 to vibrate, under the action of exciting force and resilience force of the compression spring 2-4, the vibration feeding machine body 2-2 can continuously vibrate and can continuously convey stone materials to the interior of the feeding hole 1-3;

the crushing executing mechanism 3 comprises a crushing hammer head 3-1, a crushing hammer head seat 3-2, a crushing hammer head fixing seat 3-3, a reset spring 3-4, a crushing executing mechanism casing 3-5, a crushing executing driving motor mechanism 3-6, an intermediate connecting mechanism 3-7 and a driving rod mechanism 3-8, wherein the crushing hammer head 3-1 is connected with the crushing hammer head seat 3-2, the connection mode of the crushing hammer head 3-1 and the crushing hammer head seat 3-2 is spiral connection, the crushing hammer head fixing seat 3-3 is positioned on the right side of the crushing hammer head seat 3-2, the connection mode of the crushing hammer head fixing seat 3-3 and the crushing hammer head seat 3-2 is welding, the reset spring 3-4 is positioned on the right side of the crushing hammer head seat 3-2, the connection mode of the reset spring 3-4 and the crushing hammer head seat 3-2 is welding, the reset spring 3-4 is connected with the shell 3-5 of the crushing execution mechanism, the connection mode of the reset spring 3-4 and the shell 3-5 of the crushing execution mechanism is welding, the matching mode of the fixed seat 3-3 of the crushing hammer head and the shell 3-5 of the crushing execution mechanism is clearance fit, the driving mechanism 3-6 of the crushing execution mechanism is positioned above the shell 3-5 of the crushing execution mechanism, the connection mode of the driving mechanism 3-6 of the crushing execution mechanism and the shell 3-5 of the crushing execution mechanism is bolt connection, the middle connecting mechanism 3-7 is positioned at the right side of the fixed seat 3-3 of the crushing hammer head, the connection mode of the middle connecting mechanism 3-7 and the fixed seat 3-3 of the crushing hammer head is welding, the driving mechanism 3-8 of the driving mechanism is connected with the driving mechanism 3-, the connection mode of the driving rod mechanism 3-8 and the crushing execution driving motor mechanism 3-6 is engaged, the driving rod mechanism 3-8 is arranged inside the casing 3-5 of the crushing execution mechanism, the connection mode of the driving rod mechanism 3-8 and the casing 3-5 of the crushing execution mechanism is bearing connection, the middle connection mechanism 3-7 is connected with the driving rod mechanism 3-8, the middle connection mechanism 3-7 is sleeved on the driving rod mechanism 3-8, the execution motor 3-6-2 can drive the execution motor shaft 3-6-3 to rotate by operating the execution motor 3-6-2, the execution motor shaft 3-6-3 can drive the bevel gear A3-6-4 to rotate, the bevel gear A3-6-4 can drive the bevel gear B3-8-1 to rotate, the bevel gear B3-8-1 rotates to drive the connecting driving rod 3-8-2 to rotate, the connecting driving rod 3-8-2 rotates to drive the crushing hammer head fixing seat 3-3 to reciprocate left and right through the intermediate connecting mechanism 3-7, the crushing hammer head fixing seat 3-3 reciprocates left and right to drive the crushing hammer head seat 3-2 to reciprocate left and right, the crushing hammer head seat 3-2 reciprocates left and right to drive the crushing hammer head 3-1 to reciprocate left and right, and the crushing hammer head 3-1 reciprocates left and right to crush fallen stones into small blocks;

the crushing execution driving motor mechanism 3-6 comprises an execution motor base 3-6-1, an execution motor 3-6-2, an execution motor shaft 3-6-3 and a bevel gear A3-6-4, the executing motor base 3-6-1 is positioned below the executing motor 3-6-2, the executing motor base 3-6-1 and the executing motor 3-6-2 are connected in a welding mode, the executing motor shaft 3-6-3 is arranged inside the executing motor 3-6-2, the executing motor shaft 3-6-3 and the executing motor 3-6-2 are connected in a bearing mode, the bevel gear A3-6-4 is positioned on the right side of the executing motor shaft 3-6-3, and the bevel gear A3-6-4 and the executing motor shaft 3-6-3 are connected in an expanding sleeve mode;

the middle connecting mechanism 3-7 comprises a connecting seat A3-7-1, a hinge buckle 3-7-2 and a hinge rod 3-7-3, the connecting seat A3-7-1 is connected with the hinge buckle 3-7-2, the connecting seat A3-7-1 is hinged with the hinge buckle 3-7-2, the hinge rod 3-7-3 is connected with the hinge buckle 3-7-2, and the hinge rod 3-7-3 is hinged with the hinge buckle 3-7-2;

the driving rod mechanism 3-8 comprises a bevel gear B3-8-1 and a connecting driving rod 3-8-2, the bevel gear B3-8-1 is positioned above the connecting driving rod 3-8-2, and the bevel gear B3-8-1 is connected with the connecting driving rod 3-8-2 in a welding manner;

the stone flattening mechanism 4 comprises a flattening driving mechanism 4-1, a driving seat 4-2, a connecting rod B4-3, a compression cavity 4-4, a spring seat 4-5, a spring A4-6 and a flattening seat 4-7, wherein the flattening driving mechanism 4-1 is positioned above the driving seat 4-2, the flattening driving mechanism 4-1 is in contact fit with the driving seat 4-2, the driving seat 4-2 is in welded connection with the connecting rod B4-3, the spring seat 4-5 is in welded connection with the connecting rod B4-3, the spring seat 4-5 is arranged in the compression cavity 4-4, the spring seat 4-5 is in clearance fit with the compression cavity 4-4, the spring A4-6 is positioned below the spring seat 4-5, and the spring A4-6 is in welded connection with the spring seat 4-5, the connection mode of the spring A4-6 and the compression cavity 4-4 is welding, the flattening seat 4-7 is positioned below the connecting rod B4-3, the connection mode of the flattening seat 4-7 and the connecting rod B4-3 is welding, the flattening motor 4-1-2 is operated to drive the flattening motor shaft 4-1-3 to rotate, the flattening motor shaft 4-1-3 rotates to drive the cam 4-1-4 to rotate, the cam 4-1-4 rotates to bring stroke change in the vertical direction, the change is transmitted to the driving seat 4-2, the driving seat 4-2 moves downwards to drive the connecting rod B4-3 to move downwards, the connecting rod B4-3 moves downwards to drive the flattening seat 4-7 to move downwards, the flattening seat 4-7 moves downwards to compact the ground, the connecting rod B4-3 moves downwards to drive the spring seat 4-5 to compress the spring A4-6, after the ground is compacted, the spring seat 4-5 moves upwards under the restoring action of the spring A4-6, the spring seat 4-5 moves upwards to drive the connecting rod B4-3 to move upwards, and the next compacting movement is facilitated after the spring seat 4-5 moves upwards;

the flattening driving mechanism 4-1 comprises a flattening motor base 4-1-1, a flattening motor 4-1-2, a flattening motor shaft 4-1-3 and a cam 4-1-4, wherein the flattening motor base 4-1-1 and the flattening motor 4-1-2 are connected in a welding mode, the flattening motor shaft 4-1-3 and the flattening motor 4-1-2 are connected in a bearing mode, and the flattening motor shaft 4-1-3 and the cam 4-1-4 are connected in an expansion sleeve mode;

the vibration feeding mechanism 2 is positioned above the moving frame stone sweeping mechanism 1, the connection mode of the vibration feeding mechanism 2 and the moving frame stone sweeping mechanism 1 is welding, the crushing executing mechanism 3 is positioned above the moving frame stone sweeping mechanism 1, the connection mode of the crushing executing mechanism 3 and the moving frame stone sweeping mechanism 1 is welding, and the connection mode of the stone flattening mechanism 4 and the moving frame stone sweeping mechanism 1 is welding.

The second embodiment is as follows:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present embodiment further describes an embodiment in which the number of the screen plate pockets and the number of the screen plates are four.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the first embodiment will be further described with reference to the present embodiment, in which the damper spring is made of high-carbon steel.

The fourth concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and the first embodiment will be further described with reference to the present embodiment, in which the frame body is made of stainless steel.

The device can automatically feed materials, the vibration motor shaft 2-1-3 is driven to rotate by the operation of the vibration motor body 2-1-4, the vibration motor shaft 2-1-3 rotates to drive the eccentric disc 2-1-2 to rotate, the eccentric disc 2-1-2 rotates to generate exciting force, the exciting force can drive the vibration feeding machine body 2-2 to vibrate, and under the action of the exciting force and the resilience force of the compression spring 2-4, the vibration feeding machine body 2-2 can continuously vibrate and can continuously convey stone materials into the feeding port 1-3; the device can adjust the bias force of automatic feeding, the eccentric disc 2-1-2 is provided with the balancing weight 2-1-1, the load of the eccentric disc 2-1-2 can be adjusted by adjusting the weight of the balancing weight 2-1-1, and the magnitude of the bias force is changed; the device can crush stones, the actuating motor 3-6-2 can drive the actuating motor shaft 3-6-3 to rotate by operating the actuating motor 3-6-2, the actuating motor shaft 3-6-3 can drive the bevel gear A3-6-4 to rotate by rotating the actuating motor, the bevel gear A3-6-4 can drive the bevel gear B3-8-1 to rotate by rotating the bevel gear B3-8-1 can drive the connecting driving rod 3-8-2 to rotate, the connecting driving rod 3-8-2 can drive the crushing hammer head fixing seat 3-3 to reciprocate left and right by rotating the connecting driving rod 3-8-2 through the intermediate connecting mechanism 3-7, the crushing hammer head fixing seat 3-3 to reciprocate left and right can drive the crushing hammer head seat 3-2 to reciprocate left and right, the crushing hammer head seat 3-2 can drive the crushing hammer head 3-1 to do left-right reciprocating motion by doing left-right reciprocating motion, and the crushing hammer head 3-1 can crush the falling stones into small blocks by doing left-right reciprocating motion; the device can uniformly spread broken stones, stones falling from the discharge port 1-6 can be scattered on the ground, the sweeping motor 1-5-3 is operated at the moment, the sweeping motor 1-5-3 can drive the sweeping motor shaft 1-5-2 to rotate, the sweeping motor shaft 1-5-2 can drive the sweeping plate 1-5-1 to rotate, and the sweeping plate 1-5-1 can uniformly spread the falling stones by rotating; the device can compact the spread stones, the flattening motor 4-1-3 can be driven to rotate by operating the flattening motor 4-1-2, the flattening motor 4-1-3 can drive the cam 4-1-4 to rotate, the cam 4-1-4 can drive stroke change in the vertical direction by rotating, the change can be transmitted to the driving seat 4-2, the driving seat 4-2 moves downwards to drive the connecting rod B4-3 to move downwards, the connecting rod B4-3 moves downwards to drive the flattening seat 4-7 to move downwards, the flattening seat 4-7 moves downwards to compact the ground, the connecting rod B4-3 moves downwards to drive the spring seat 4-5 to compress the spring A4-6, after the ground is compacted, under the restoring action of the spring A4-6, the spring seat 4-5 moves upwards, the upward movement of the spring seat 4-5 can drive the connecting rod B4-3 to move upwards, and the next compaction movement is facilitated after the return; the device can move, and a moving wheel body 1-1-1 is arranged below the device, so that the moving function can be realized.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a multi-functional stone breaker for paving, sweeps flat mechanism (1), vibration feed mechanism (2), broken actuating mechanism (3), building stones mechanism (4) that flattens including moving vehicle frame building stones, its characterized in that: the stone material sweeping mechanism (1) of the movable frame comprises a movable wheel mechanism (1-1), a frame body (1-2), a feeding port (1-3), a limiting rod sliding groove (1-4), a stone material sweeping mechanism (1-5) and a discharging port (1-6), wherein the movable wheel mechanism (1-1) is positioned below the frame body (1-2), the movable wheel mechanism (1-1) is connected with the frame body (1-2) through bolts, the feeding port (1-3) is positioned above the frame body (1-2), the feeding port (1-3) is connected with the frame body (1-2) through welding, the limiting rod sliding groove (1-4) is formed in a top plate of the frame body (1-2), and the stone material sweeping mechanism (1-5) is connected with the frame body (1-2), the stone sweeping mechanism (1-5) and the frame body (1-2) are connected in a way of partial bolt connection and partial bearing connection, and the discharge port (1-6) is arranged on the frame body (1-2);

the moving wheel mechanism (1-1) comprises a moving wheel body (1-1-1), a moving wheel fixing rod (1-1-2), moving wheel support legs (1-1-3) and a moving wheel seat (1-1-4), wherein the moving wheel body (1-1-1) is connected with the moving wheel fixing rod (1-1-2), the moving wheel body (1-1-1) is connected with the moving wheel fixing rod (1-1-2) in a bearing mode, the moving wheel fixing rod (1-1-2) is connected with the moving wheel support legs (1-1-3) in a welding mode, and the moving wheel seat (1-1-4) is positioned above the moving wheel support legs (1-1-3), the movable wheel seat (1-1-4) and the movable wheel support leg (1-1-3) are connected by welding;

the stone sweeping mechanism (1-5) comprises a sweeping plate (1-5-1), a sweeping motor shaft (1-5-2), a sweeping motor (1-5-3) and a sweeping motor base (1-5-4), wherein the sweeping plate (1-5-1) is positioned below the sweeping motor shaft (1-5-2), the sweeping plate (1-5-1) is connected with the sweeping motor shaft (1-5-2) in an expansion sleeve manner, the sweeping motor shaft (1-5-2) is connected with the sweeping motor (1-5-3) in a bearing manner, the sweeping motor base (1-5-4) is positioned on the right side of the sweeping motor (1-5-3), the sweeping motor base (1-5-4) and the sweeping motor (1-5-3) are connected in a welding mode;

the vibration feeding mechanism (2) comprises a vibration motor (2-1), a vibration feeding machine body (2-2), a material sliding plate (2-3), a compression spring (2-4) and a limiting rod (2-5), wherein the vibration motor (2-1) is connected with the vibration feeding machine body (2-2), the vibration motor (2-1) and the vibration feeding machine body (2-2) are connected in a welding mode, the material sliding plate (2-3) is connected with the vibration feeding machine body (2-2), the material sliding plate (2-3) and the vibration feeding machine body (2-2) are connected in a welding mode, the compression spring (2-4) is positioned below the vibration feeding machine body (2-2), and the compression spring (2-4) and the vibration feeding machine body (2-2) are connected in a welding mode, the limiting rod (2-5) is positioned below the vibration feeding machine body (2-2), and the limiting rod (2-5) and the vibration feeding machine body (2-2) are connected in a welding mode;

the vibration motor (2-1) comprises a balancing weight (2-1-1), an eccentric disc (2-1-2), a vibration motor shaft (2-1-3), a vibration motor body (2-1-4) and a vibration motor base (2-1-5), the balancing weight (2-1-1) is connected with the eccentric disc (2-1-2) in a spiral mode, the vibration motor shaft (2-1-3) is connected with the eccentric disc (2-1-2) in an expansion sleeve mode, the vibration motor shaft (2-1-3) is arranged inside the vibration motor body (2-1-4), the connection mode of the vibrating motor shaft (2-1-3) and the vibrating motor body (2-1-4) is bearing connection, the vibrating motor body (2-1-4) is positioned above the vibrating motor base (2-1-5), and the connection mode of the vibrating motor body (2-1-4) and the vibrating motor base (2-1-5) is welding;

the crushing execution mechanism (3) comprises a crushing hammer head (3-1), a crushing hammer head seat (3-2), a crushing hammer head fixing seat (3-3), a reset spring (3-4), a crushing execution mechanism casing (3-5), a crushing execution driving motor mechanism (3-6), an intermediate connecting mechanism (3-7) and a driving rod mechanism (3-8), wherein the crushing hammer head (3-1) is connected with the crushing hammer head seat (3-2), the crushing hammer head (3-1) is in spiral connection with the crushing hammer head seat (3-2), the crushing hammer head fixing seat (3-3) is positioned on the right side of the crushing hammer head seat (3-2), the connection mode of the crushing hammer head fixing seat (3-3) and the crushing hammer head seat (3-2) is in welding mode, and the reset spring (3-4) is positioned on the right side of the crushing hammer head seat (3-2), the reset spring (3-4) is connected with the crushing hammer head seat (3-2) in a welding mode, the reset spring (3-4) is connected with the crushing executing mechanism casing (3-5) in a welding mode, the crushing hammer head fixing seat (3-3) is matched with the crushing executing mechanism casing (3-5) in a clearance fit mode, the crushing executing driving motor mechanism (3-6) is positioned above the crushing executing mechanism casing (3-5), the crushing executing driving motor mechanism (3-6) is connected with the crushing executing mechanism casing (3-5) in a bolt connection mode, the middle connecting mechanism (3-7) is positioned on the right side of the crushing hammer head fixing seat (3-3), and the middle connecting mechanism (3-7) is connected with the crushing hammer head fixing seat (3-3) in a bolt connection mode Welding, wherein a driving rod mechanism (3-8) is connected with a crushing execution driving motor mechanism (3-6), the driving rod mechanism (3-8) is meshed with the connection mode position of the crushing execution driving motor mechanism (3-6), the driving rod mechanism (3-8) is arranged inside a shell (3-5) of the crushing execution mechanism, the driving rod mechanism (3-8) is connected with the shell (3-5) of the crushing execution mechanism through a bearing, an intermediate connecting mechanism (3-7) is connected with the driving rod mechanism (3-8), and the intermediate connecting mechanism (3-7) is sleeved on the driving rod mechanism (3-8);

the crushing execution driving motor mechanism (3-6) comprises an execution motor base (3-6-1), an execution motor (3-6-2), an execution motor shaft (3-6-3) and a bevel gear A (3-6-4), wherein the execution motor base (3-6-1) is positioned below the execution motor (3-6-2), the execution motor base (3-6-1) and the execution motor (3-6-2) are connected in a welding mode, the execution motor shaft (3-6-3) is arranged inside the execution motor (3-6-2), the execution motor shaft (3-6-3) and the execution motor (3-6-2) are connected in a bearing mode, the bevel gear A (3-6-4) is positioned on the right side of the execution motor shaft (3-6-3), the bevel gear A (3-6-4) is connected with the executive motor shaft (3-6-3) in an expansion sleeve manner;

the middle connecting mechanism (3-7) comprises a connecting seat A (3-7-1), a hinge buckle (3-7-2) and a hinge rod (3-7-3), the connecting seat A (3-7-1) is connected with the hinge buckle (3-7-2), the connecting seat A (3-7-1) and the hinge buckle (3-7-2) are connected in a hinge mode, the hinge rod (3-7-3) is connected with the hinge buckle (3-7-2), and the hinge rod (3-7-3) and the hinge buckle (3-7-2) are connected in a hinge mode;

the driving rod mechanism (3-8) comprises a bevel gear B (3-8-1) and a connecting driving rod (3-8-2), the bevel gear B (3-8-1) is positioned above the connecting driving rod (3-8-2), and the bevel gear B (3-8-1) is connected with the connecting driving rod (3-8-2) in a welding manner;

the stone flattening mechanism (4) comprises a flattening driving mechanism (4-1), a driving seat (4-2), a connecting rod B (4-3), a compression cavity (4-4), a spring seat (4-5), a spring A (4-6) and a flattening seat (4-7), the flattening driving mechanism (4-1) is positioned above the driving seat (4-2), the flattening driving mechanism (4-1) is in contact fit with the driving seat (4-2), the driving seat (4-2) is connected with the connecting rod B (4-3) in a welding mode, the spring seat (4-5) is arranged in the compression cavity (4-4), the spring seat (4-5) is in clearance fit with the compression cavity (4-4), the spring A (4-6) is positioned below the spring seat (4-5), the connection mode of the spring A (4-6) and the spring seat (4-5) is welding, the connection mode of the spring A (4-6) and the compression cavity (4-4) is welding, the flattening seat (4-7) is positioned below the connecting rod B (4-3), and the connection mode of the flattening seat (4-7) and the connecting rod B (4-3) is welding;

the flattening driving mechanism (4-1) comprises a flattening motor base (4-1-1), a flattening motor (4-1-2), a flattening motor shaft (4-1-3) and a cam (4-1-4), the flattening motor base (4-1-1) and the flattening motor (4-1-2) are connected in a welding mode, the flattening motor shaft (4-1-3) and the flattening motor (4-1-2) are connected in a bearing mode, and the flattening motor shaft (4-1-3) and the cam (4-1-4) are connected in an expanding sleeve mode;

vibration feed mechanism (2) are located the top that the mechanism (1) was swept to the removal frame building stones, and the connected mode that the mechanism (1) was swept to vibration feed mechanism (2) and removal frame building stones is the welding, and broken actuating mechanism (3) are located the top that the mechanism (1) was swept to the removal frame building stones, and broken actuating mechanism (3) are for the welding with the connected mode that the mechanism (1) was swept to the removal frame building stones, and building stones flattening mechanism (4) is for the welding with the connected mode that the mechanism (1) was swept to the removal frame building stones.

2. The aggregate crushing device for multifunctional paving according to claim 1, wherein: the number of the moving wheel mechanisms (1-1) is four.

3. The aggregate crushing device for multifunctional paving according to claim 1, wherein: the material of the feed inlet (1-3) and the material of the vibration feeding machine body (2-2) are high manganese steel.

4. The aggregate crushing device for multifunctional paving according to claim 1, wherein: the compression springs (2-4) and the springs A (4-6) are made of high-carbon steel.